Plasmaspheric Hiss: Coherent and Intense
International audienceIntense~300-Hz to 1.0-kHz plasmaspheric hiss was studied using Polar plasma wave data. It is found that the waves are coherent in all local time sectors with the wave coherency occurring in approximately three-to five-wave cycle ...
Bruce T Tsurutani +2 more
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Novel Wave Models and Diffusion Coefficients for Plasmaspheric Hiss and Low Frequency Hiss
2021 International Conference on Electromagnetics in Advanced Applications (ICEAA), 2021The Earth's inner magnetosphere is populated by a host of high frequency plasma waves which, via wave-particle interactions, can shape the dynamics of the terrestrial radiation belts. One of these is an incoherent whistler-mode plasma wave commonly referred to as hiss.
David M. Malaspina +2 more
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On the origin of plasmaspheric hiss: The importance of wave propagation and the plasmapause
Journal of Geophysical Research: Space Physics, 1979The presence of a turbulent band of ELF hiss throughout the plasmasphere has been modeled by following unducted whistler mode waves from a restricted region of cyclotron resonant growth in the outer plasmasphere. The most unstable waves originate near the equatorial plane within a modest cone of wave normal angles aligned along the ambient magnetic ...
R.M. Thorne, S.R. Church, D.J. Gorney
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Determining the global coherence of plasmaspheric hiss waves in the magnetosphere
2020<p>Plasmaspheric hiss waves is important in the radiation belt. Previous papers have shown that considering the variability of wave parameters will improve the effectiveness of modeling wave-particle interactions in the Radiation Belt, but less is known about how rapidly (and by how much) wave characteristics vary.
Shuai Zhang +5 more
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Global Survey of Electron Precipitation due to Hiss Waves in the Earth’s Plasmasphere and Plumes
Journal of Geophysical Research: Space Physics, 2021AbstractWe present a global survey of energetic electron precipitation from the equatorial magnetosphere due to hiss waves in the plasmasphere and plumes. Using Van Allen Probes measurements, we calculate the pitch angle diffusion coefficients at the bounce loss cone, and evaluate the energy spectrum of precipitating electron flux. Our ∼6.5‐year survey
Q. Ma +11 more
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Whistlers and plasmaspheric hiss: Wave directions and three‐dimensional propagation
Journal of Geophysical Research: Space Physics, 1993Wave data from the DE 1 satellite showing simultaneously nonducted whistlers and hiss are analyzed to determine wave propagation directions. At L = 3.8 and a geographic latitude of λg = 12°S, the average wave normal directions of discrete whistlers are measured to be ∼51° for fnof;= 4.5 kHz and ∼60° for fnof;= 3.5 kHz, forming a small (<20°) angle ...
A. B. Draganov +3 more
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Precipitation Loss of Radiation Belt Electrons by Two‐Band Plasmaspheric Hiss Waves
Journal of Geophysical Research: Space Physics, 2020AbstractA two‐band plasmaspheric hiss consisting of a low‐frequency band (normal hiss with the frequency below 2 kHz) and a high‐frequency band (locally generated hiss with the frequency up to 10 kHz) was observed on 6 January 2014 by the Van Allen Probes (He et al., 2019, https://doi.org/10.1029/2018GL081578).
Zhaoguo He +6 more
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CIMI simulations with newly developed multiparameter chorus and plasmaspheric hiss wave models
Journal of Geophysical Research: Space Physics, 2017AbstractNumerical simulation studies of the Earth's radiation belts are important to understand the acceleration and loss of energetic electrons. The Comprehensive Inner Magnetosphere‐Ionosphere (CIMI) model considers the effects of the ring current and plasmasphere on the radiation belts to obtain plausible results.
Homayon Aryan +8 more
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Plasmaspheric hiss waves generate a reversed energy spectrum of radiation belt electrons
Nature Physics, 2019Highly energetic electrons are trapped in the magnetic field of Earth’s radiation belts. The physical mechanisms driving the dynamics of the Van Allen belts can be understood from the electron’s energy spectrum, which is believed to be steeply falling with increasing energy.
H. Zhao +15 more
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Hiss Waves Near the South Atlantic Anomaly in the Inner Plasmasphere
Journal of Geophysical Research: Space PhysicsAbstract Plasmaspheric hiss is an important electromagnetic wave with a broad frequency range from 10 Hz to several kHz. In this study, we statistically investigate the distribution of the plasmaspheric hiss wave near the South Atlantic Anomaly (SAA) using data from the Van Allen Probes.
Huicong Chen +4 more
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